Patenting Antibodies

1
Patenting Antibodies
Yvonne (Bonnie) Eyler, SPE 1621 (571)
272-0871 Yvonne.eyler_at_uspto.gov Larry R. Helms,
SPE, AU 1643 (571) 272-0832 Larry.helms_at_uspto.gov
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Antibody Structure
Adapted from people.cryst.bbk.ac.uk/ubcg07s/gifs/
igG.gif
3
Variable domain of Antibodies
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Humanization of Antibodies

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Epitopes
Epitope
Antigen
The actual portions or fragments of an antigen
that react with receptors on B-lymphocytes and
T-lymphocytes, as well as free antibody
molecules, are called epitopes or antigenic
determinants. The size of an epitope
is generally thought to be equivalent to 5-15
amino acids or 3-4 sugar residues.
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Epitopes cont.
Protein B
Protein A
Anti-protein B
Anti-protein A
Cross-reacting antibody An antibody that reacts
with epitopes on an antigen molecule differing
from the one that stimulated its synthesis. The
effect is attributable to shared epitopes on the
two antigen molecules. Cruse et al., Illustrated
Dictionary of Immunology, CRC Press, New York,
1995
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Epitopes cont.

• Specificity
• 1). Recognition by an antibody of a specific
  epitope in the presence of
• other epitopes.
• Cruse et al., Illustrated Dictionary of
  Immunology, CRC Press, New York, 1995
• 2). Property of antibodies which enable them to
  react with some antigenic determinants and not
  with others.
• Medical dictionary Antibody specificity-WrongDia
  gnosis.com
• 3). The specificity of an antibody is its
  ability to discriminate between two different
  epitopes.
• From http//users.rcn.com/kimball.ma.ultranet/Biol
  ogyPages/A/Affinity.html
• It is acknowledged in the art that an antibody
  can bind to any epitope that has the correct
  conformation, and this potentially includes the
  protein used for immunization, as well as any
  protein with a similar epitope. (Burry, J.
  Histochem Cytochem 48163-165, 2000)

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Written Description
The effect of recent decisions on examination
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Written Description
35 USC 112 The specification shall contain a
written description of the invention, and of the
manner and process of making and using it, in
such full, clear, concise, and exact terms as to
enable any person skilled in the art to which it
pertains, or with which it is most nearly
connected, to make and use the same and shall set
forth the best mode contemplated by the inventor
of carrying out his invention.

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Example 1

• Claim 1. A monoclonal antibody that specifically
  binds Protein X.
• Claim 2. The antibody of claim 1 which binds
  murine Protein X.
• Claim 3. The antibody of claim 1 which binds
  human Protein X.
• This example is based on the fact pattern in
  Noelle v. Lederman, 355 F.3d 1343 (Fed. Cir.
  2004).

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Specification

• The specification describes a monoclonal antibody
  that specifically binds to Protein X isolated
  from murine tissue.
• The specification explains that an antibody that
  specifically binds Protein X can be used to
  repress cell-to-cell signaling interactions
  between certain cells in the immune system.
• The specification discloses several physical and
  chemical properties of isolated murine Protein X
  including the amino acid sequence.
• The specification does not disclose a physical or
  chemical property for Protein X from another
  species, however, the specification discloses
  that human Protein X is expected to have the same
  in vivo function as murine Protein X.

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Analysis

• Claim 2 The specification characterizes murine
  Protein X sufficiently so that those of skill in
  the art would accept that applicant had
  possession of murine Protein X at the time the
  application was filed.
• The level of skill and knowledge in the art of
  antibodies at the time of the filing was such
  that production of antibodies against a
  well-characterized antigen was conventional and
  those of skill in the art of immunology would
  accept that an adequate description of a purified
  antigen would put an inventor in possession of
  antibodies that bind the purified antigen.
• Accordingly, there is adequate written
  description support for claim 2.

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Analysis (cont.)

• Claims 1 and 3 The specification does not
  describe actual reduction to practice of an
  antibody that binds human Protein X or Protein X
  from any non-murine source.
• The specification does not describe the complete
  structure of an antibody that binds Human Protein
  X or Protein X from a non-murine source.
• The specification does not disclose a
  correlation between human Protein X or Protein X
  from other species and the structure of the
  claimed antibody.
• The specification does not describe a method of
  making an antibody that binds human Protein X or
  Protein X from other sources that can be done
  without the specific Protein X.

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Analysis (cont.)

• A review of the specification as well as the
  prior art finds no evidence that the disclosed
  properties of murine Protein X are predictive of
  corresponding properties for human Protein X.
• The description of Protein X is simply functional
  and there is no evidence that those of skill in
  the art would accept a disclosure of murine
  Protein X and its antibodies as evidence that the
  inventor had possession of human Protein X.
• Claim 3 is directed to an unknown identified by
  reference to another unknown.
• Claim 1 is directed to a genus that is not
  adequately described.

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Conclusion of Analysis

• Claim 2 is supported by an adequate written
  description.
• Claims 1 and 3 are not supported by an adequate
  written description.
• Claims 1 and 3 should be rejected for lack of
  written description support.

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Summary of Holdings in Noelle

• Therefore, based on our past precedent, as long
  as an applicant has disclosed a fully
  characterized antigen, either by its structure,
  formula, chemical name, or physical properties,
  or by depositing the protein in a public
  depository, the applicant can then claim an
  antibody by its binding affinity to that
  described antigen. Noelle, 355 F.3d at 1349
  (Fed. Cir. 2004) (emphasis in original).

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Example 2

• Claim A monoclonal antibody that binds to human
  X antigen.
• This example is adapted from part of the fact
  pattern in Chiron Corp. v. Genentech, Inc. , 363
  F.3d 1247 (Fed. Cir. 2004).

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The Specification

• Disclosed antigen X from human tissue.
• Disclosed the term monoclonal antibody means an
  antibody composition having a homogeneous
  antibody population. It is not intended to be
  limited as to the source of the antibody or the
  manner in which it is made.
• The instant application claims the benefit of an
  earlier filed application (parent) and the parent
  does not mention humanized or chimaeric
  antibodies or an explanation of the term
  monoclonal antibody.
• The instant application explicitly discloses
  humanized and chimaeric antibodies.

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Prior Art

• An intervening prior art reference published
  after the filing date of the parent application,
  but before the actual filing date of the present
  application, discloses humanized and chimaeric
  antibodies to human antigen X.

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Analysis

• In the light of specifications disclosure,
  the term monoclonal antibody is given the
  broadest reasonable interpretation and includes
  homogeneous antibody populations made by any
  technology.
• Thus, the claim includes antibodies obtained from
  hybridomas as well as from engineering
  technology, including humanized or chimaeric
  antibodies.

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Analysis (cont.)

• Chimaeric and humanized antibodies were added to
  the disclosure of the parent when the present
  application was filed.
• A review of the relevant prior art shows that
  chimaeric antibody technology did not exist at
  the time the parent application was filed.
• Accordingly, the present claim is not entitled to
  the filing date of the parent application and
  gets the filing date of the present application.
• Therefore, the claim must be rejected as
  anticipated by the intervening reference.

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Summary of Holdings in Chiron

• Because chimeric antibody technology did not even
  exist at the time of the 1984 filing, the record
  conclusively supports that the Chiron scientists
  did not possess and disclose this technology in
  the February 1984 filing. See Union Oil Co. of
  Cal. v. Atl. Richfield Co., 208 F.3d 989, 998
  (Fed. Cir. 2000) (A jury determined that, as of
  the filing date, the inventor conveyed with
  reasonable clarity to those of skill in the art
  that he was in possession of the subject matter
  of the claims.). Thus, the 561 patent cannot
  claim priority based on the 1984 application
  because it fails to comply with the written
  description requirement. The written description
  requirement prevents applicants from using the
  amendment process to update their disclosures
  (claims or specifications) during their pendency
  before the patent office. Otherwise applicants
  could add new matter to their disclosures and
  date them back to their original filing date,
  thus defeating an accurate accounting of the
  priority of invention. See 35 U.S.C.  132. The
  law does not expect an applicant to disclose
  knowledge invented or developed after the filing
  date. Such disclosure would be impossible. See
  In re Hogan, 559 F.2d 595, 605-06 (CCPA 1977).
  from Chiron Corp. v. Genentech, Inc. , 363 F.3d
  1247 (Fed. Cir. 2004).

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Enablement

• 35 USC 112
• The specification shall contain a written
  description of the invention, and of the manner
  and process of making and using it, in such full,
  clear, concise, and exact terms as to enable any
  person skilled in the art to which it pertains,
  or with which it is most nearly connected, to
  make and use the same and shall set forth the
  best mode contemplated by the inventor of
  carrying out his invention.

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MPEP 2164.01(a) Undue Experimentation Factors
(In re Wands)

• The breadth of the claims
• The nature of the invention
• The state of the prior art
• The level of one of ordinary skill
• The level of predictability in the art
• The amount of direction provided by the inventor
• The existence of working examples
• The quantity of experimentation needed to make or
  use the invention based on the content of the
  disclosure

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Example 1

• Claim An isolated antibody that binds to human
  antigen X, said antibody comprises a heavy chain
  variable domain comprising the 3 CDRs in SEQ ID
  NO1 and a light chain variable domain comprising
  the 3 CDRs in SEQ ID NO2.
• Sequence defined in claim

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Specification

• Discloses antigen X from human tissue.
• Discloses antigen X is over-expressed in cancer
  tissue vs. normal tissue.
• The instant application produced an antibody
  that binds antigen X that contains a VH of SEQ ID
  NO1 and a VL of SEQ ID NO2, as well as
  explicitly disclosing humanized and chimaeric
  antibodies.
• The instant application provides examples of
  detection of cancer in human subjects with an
  antibody that binds antigen X.

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State of the Prior Art

• It was well known at the time the application was
  filed that the heavy and light polypeptide chains
  each contribute three CDRs to the antigen binding
  region of the antibody molecule.
• The prior art1 taught humanization of antibodies
  by transfer of the 6 CDRs from a donor framework
  region to an acceptor framework region and
  retention of antigen binding.
• 1Queen et al., PNAS (1988) 8610029-10033,
• Riechmann et al., Nature (1988) 332323-327

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Analysis

• In light of the prior art disclosing the CDRs
  as being the essential structure of the
  antibodys binding site, the identification of
  the specific CDR sequences in the specification
  provides enough structure to define the
  antibodys binding site.
• In addition, the prior art for humanization
  supports obtaining successful antigen binding by
  transferring the 6 CDRs from a donor framework to
  an acceptor framework.

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Analysis (cont.)

• Thus, it would not have been undue
  experimentation to obtain an antibody that would
  bind antigen X and comprise the 6 CDRs as
  specifically defined in the claim at the time of
  filing.
• Therefore, a claim that defines an antibody that
  binds antigen X and comprises a heavy chain
  variable region comprising the 3 CDRs in SEQ ID
  NO1 and a light chain variable region comprising
  the 3 CDRs in SEQ ID NO2 meets the requirements
  under 35 U.S.C. 112, first paragraph, for
  enablement.

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Example 2

• Claim 1. An isolated antibody that binds to human
  antigen X, said antibody comprises a heavy chain
  variable domain comprising SEQ ID NO1.
• Claim 2. An isolated antibody that binds to human
  antigen X, said antibody comprises a light chain
  variable domain comprising SEQ ID NO2.
• Sequence defined in claim

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Specification

• Discloses antigen X from human tissue.
• Discloses antigen X is over-expressed in cancer
  tissue vs. normal tissue.
• The instant application produced an antibody
  that binds antigen X that contains a VH of SEQ ID
  NO1 and a VL of SEQ ID NO2, as well as
  explicitly disclosing humanized and chimaeric
  antibodies.
• The instant application provides examples of
  detection of cancer in human subjects with an
  antibody that binds antigen X.

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State of the Prior Art

• There are several prior art2 references that
  teach methods of producing antibodies that bind a
  specific antigen by using a specific VL (or VH)
  and screening a library of the complimentary
  variable domains.
• Sequence defined
• 2Portolano et al., The Journal of Immunology
  (1993) 150880-887
• Clarkson et al., Nature (1991) 352624-628

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Analysis

• In light of the prior art disclosing methods of
  obtaining antibodies that bind an antigen by
  screening complementary variable domain
  libraries, the specifications disclosure of an
  antibody that binds a specific antigen comprising
  a defined VH or VL sequence would provide enough
  structure for one skilled in the art to practice
  the invention.
• Therefore, claims directed to an antibody that
  binds a specific antigen and comprises a defined
  VH or VL sequence meet the requirements under 35
  U.S.C. 112, first paragraph, for enablement.

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Example 3

• Claim An isolated antibody that binds to human
  antigen X, said antibody comprises a heavy chain
  variable domain and a light chain variable
  domain, said heavy chain variable domain
  comprises the CDR3 in SEQ ID NO1 (VH).

CDR1
CDR2
CDR3
VH
CDR1
CDR2
CDR3
VL
Sequence defined in claim
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Specification

• Produced a series of antibodies that bind
  antigen X and the antibodies were not random
  combinations of VH and, i.e., VL they had
  specific VH domains paired with specific VL
  domains.
• The VH domains are highly homologous to each
  other and share not only CDR3, but also were
  nearly identical in framework regions (3-6/124
  residues) as well as CDR1 (3/5)1 and CDR2 (6/16)1
  regions.
• indicates region where residues differ
• 1 indicates residues that are identical out of
  number of residues in the CDR

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Specification (cont.)

• Analysis of the VL sequences of these
  antibodies reveals that these domains are highly
  homologous to each other. The framework regions
  are nearly identical and the VL domains are
  identical in CDR1 and CDR2 regions. The CDR3
  (8/10)1 regions are highly homologous to each
  other.
• The instant application suggests that it was
  well established in the art at the time the
  invention was made that the CDR3 region alone can
  determine the specificity of the antibody.
• 1 indicates residues that are identical out of
  number of residues in the CDR

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State of the Prior Art

• Prior art for obtaining an antibody with only
  CDR3 of the VH defined
• Klimka et al., British Journal of Cancer (2000)
  83 252-260 Klimka et al describe a screening
  process using a mouse VL and a human VH library
  with CDR3 and FR4 retained from the mouse VH.
  After obtaining antibodies, the VH was screened
  against a human VL library to obtain antibodies
  that bound antigen.
• Beiboer et al., J. Mol. Biol. (2000)
  296833-849 Beiboer et al describe a screening
  process using the entire mouse heavy chain and a
  human light chain library. After obtaining
  antibodies, one VL was combined with a human VH
  library with the CDR3 of the mouse retained.
  Antibodies capable of binding antigen were
  obtained.
• Rader et al., PNAS (1998) 958910-8915 Rader
  et al, describe a process similar to Beiboer et
  al above.

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State of the Prior Art (cont.)

• Method for screening

VL
VH
VH
VL
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State of the Prior Art (cont.)

• The prior art methods for screening rely on a two
  step process where each step results in an
  antibody, however, each step requires one of the
  variable domains to be a defined sequence and the
  defined variable domain provides enough structure
  to obtain an antibody.
• The prior art methods do not result in an
  antibody solely by keeping CDR3 in the VH defined
  and randomizing the rest of the VH and VL
  domains.

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State of the Prior Art (cont.)

• Prior art indicating the CDR3 region in the VH
  domain is important in antigen binding
• MacCallum et al., J. Mol. Biol. (1996) 262
  732-745 Analyzed many different antibodies for
  interaction with antigen and found that although
  CDR3 of the VH dominate the interaction, a number
  of residues outside the CDRs make antigen
  contacts and residues in the CDRs are important
  for backbone conformations.
• Pascalis et al., the Journal of Immunology
  (2002) 169 3076-3084 Grafting of CDRs onto a
  human framework required some residues in all 6
  CDRs as well as specific frameworks.
• Casset et al., BBRC (2003) 307, 198-205
  Constructed a peptide mimetic of an anti-CD4
  antibody binding site using 24 residues formed
  from residues from 5 of the CDRs. Casset et al.,
  state that although CDR H3 is at the center of
  most antigen interactions, clearly other CDRs
  play an important role in recognition.

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State of the Prior Art (cont.)

• Vajdos et al., J. Mol. Biol. (2002) 320
  415-428 Antigen binding is primarily mediated by
  the CDRs but more highly conserved framework
  segments are mainly involved in supporting CDR
  loop conformations and, in some cases, framework
  residues also contact antigen.
• Padlan et al., PNAS (1989) 865938-5942 Padlan
  et al describe the crystal structure of an
  antibody-lysozyme complex where all 6 CDRs
  contribute at least one residue to binding and
  one residue in the framework is also in contact
  with antigen.
• Lamminmaki et al., JBC (2001) 27636687-36694
  Lamminmaki et al describe the crystal structure
  of an anti-estradiol antibody in complex with
  estradiol where, although CDRH3 plays a prominent
  role, all CDRs in the light chain make direct
  contact with antigen (even CDRL2, which is rarely
  directly involved in hapten binding).

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State of the Prior Art (cont.)

• The prior art indicated that, in some instances,
  the CDR3 region is important. However, this
  region is not solely responsible for binding.
  The conformation of other CDRs, as well as
  framework residues influence binding.

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State of the Prior Art (cont.)

• Transfer of only CDR3 in the VH and retention of
  antigen binding.
• Barbas et al., PNAS (1995) 92 2529-2533
  Transferred the CDR3 of the VH of three anti-DNA
  antibody to an anti-tetanus toxoid antibody and
  retained DNA binding in 2/3 antibodies.
• It was known in the art that antibodies that
  bind dsDNA can be generated by reconstruction of
  the CDR3 in the heavy chain of an antibody as
  well as transplantation of a 17 amino acid
  alpha-helical DNA binding domain into CDR3 of the
  heavy chain3.
• 3McLane et al., PNAS (1995) 925214-5218,
• Barbas et al., J. Am. Chem. Soc. (1994)
  1162161-2162

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Analysis

• The claim is broadly drawn to any antibody that
  binds antigen X and comprises a heavy chain
  variable region comprising CDR3 in SEQ ID NO1.
• The specification discloses antibodies with
  highly homologous VH and VL domains and identical
  VH CDR3 regions.
• The specification does not disclose that CDR3 of
  the VH alone can be transferred to just any
  framework and paired with just any VL and retain
  antigen binding.

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Analysis (cont.)

• The specification does not provide any examples
  to support that CDR3 of the VH or VL is solely
  responsible for antigen binding.
• The prior art does not show screening for
  antibodies by just defining CDR3. The methods
  rely on using an entire VH or VL and screening
  random complimentary chains.
• The prior art does not show that a CDR3 is
  universally solely responsible for antigen
  binding.

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Analysis (cont.)

• The prior art does not support a definition of an
  antibody structure solely by defining the CDR3
  sequence of a VH or VL.
• Based on this analysis a claim to an isolated
  antibody that binds to human antigen X, said
  antibody comprises a heavy chain variable domain
  and a light chain variable domain, said heavy
  chain variable domain comprises the CDR3 in SEQ
  ID NO1, does not meet the requirements of 35
  U.S.C. 112, first paragraph, for enablement.

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Prior Art

• Antibodies

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Example 3

• An isolated antibody which specifically binds to
  a polypeptide comprising SEQ ID NO 1.

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The Specification

• Discloses an isolated full length polypeptide
  comprising SEQ ID NO 1.
• Discloses an antibody raised to the full length
  polypeptide.

50
Prior Art

• Reference Y teaches a protein that is 99
  identical to SEQ ID NO 1 over its full length.
• Reference Y also teaches an antibody that was
  raised to and specifically binds said protein of
  the art.

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Rejection under 35 U.S.C. 102

• The specification does not define the term
  specifically binds and in light of the art
  accepted meanings given previously, the phrase is
  given its broadest reasonable interpretation and
  the phrase defines the act of an antibody binding
  to its antigenic determinant/epitope.
• The term specifically in this instance, absent
  a clear definition in the specification, is not
  interpreted to mean exclusivity.
• Antibody binding to shared or similar epitopes on
  different antigens is known as cross-reactivity.
• The antigen of the art is highly related to the
  antigen used to raise the instantly claimed
  antibody, indeed, it is nearly identical.
• The antibody of prior art reference Y would
  support a rejection under 35 U.S.C. 102 of the
  claimed antibody because 99 identity is
  substantial evidence of cross-reactivity.

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Example 4

• An isolated antibody which binds a fusion protein
  comprising SEQ ID NO 1.

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The Specification

• Discloses an isolated full length polypeptide
  comprising SEQ ID NO 1.
• Discloses an antibody raised to the full length
  polypeptide.
• Discloses fusion proteins comprising SEQ ID NO 1
  and heterologous polypeptides selected from HIS
  tags and BSA.

54
Prior Art

• Reference X teaches antibodies which bind HIS
  tags for use in protein purification.

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Conclusion

• The claim would be rejected under 35 U.S.C. 102
  over the prior art reference X antibodies which
  would bind the instantly claimed fusion protein
  due to their ability to bind the HIS tags
  individually.

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Questions?
Patenting Antibodies